CS261145B1 - Weft thread's optoelectronic sensor for air-jet looms - Google Patents

Abstract

The solution concerns optoelectronic-sensing * which is adjustable on the holder and this is again adjustable * 1 fortified on a fixed part of an air weaving machine. This allows a semihowat detection zone optoelectronic sensor. in close proximity space defined by the pick black in the beam position.

Description

The invention relates to an optoelectronic weft yarn sensor for air weaving machines with a weft yarn relay.

In air weaving machines with a weft yarn relay, so far optoelectronic sensors are mainly located at different locations of the 'bidlen' along with the 'beam' in which the picking channel is formed. E.g. according to the invention CS No. 192 198, the optoelectronic sensor is mounted on the bidlen by means of a holder adjustable over the entire length of the bidlen. When checking the presence of the weft yarn, the space in front and behind the beam is monitored.

The main disadvantage of optoelectronic sensors mounted on bidene is the low durability and reliability of optoelectronic elements. Namely, the reciprocating movement of the bidlen and the impact caused by the weft yarn strike during its chopping create precisely these unfavorable conditions for said elements and their cable feeds.

Another known weft stop solution with an optoelectronic sensor according to U.S. Pat. No. 192,568 is already improved in that the optoelectronic sensor is mounted on a fixed part of a weaving machine. However, the detection zone of the optoelectronic sensor is beyond the stroke plane. The actual check of the presence of the weft thread takes place only after the stroke, in the space between the edge of the warp thread in the soil and the binding threads for the removal of the cut weft ends. To this end, a "window" is created at this point of the beam, by releasing a certain number of cane. At the location of this “window”, a fork-like transfer mechanism is attached to the beam top. Through this fork, the weft yarn swept during the stroke is introduced between the optoelectronic control means and registered through the detection zone.

The whole device is rather complicated. However, its main disadvantage is that the weft yarn is only detected after the stroke and thus the time required for braking and stopping the weaving machine after the detected weft yarn has been detected. Reducing the braking time places high demands on the braking device by which the weaving machine must be braked in such a time interval that the weft yarn is not changed before stopping the weaving machine, with the subsequent removal of the misfed weft yarn. This is particularly disadvantageous for high-speed weaving machines.

In other solutions, for example according to CS No. 246 511, JP 55-137 247 or CH 649 322, the end of the weft yarn on the range side is bent off the pick axis by the action of an ejector in which an optoelectronic weft yarn detector is also incorporated. For the sensor to function properly, it is necessary in this case to increase the length of the end of the weft thread by the length of its insertion into the ejector, thereby increasing the weft thread waste.

These drawbacks of the prior art are overcome with an optoelectronic weft yarn sensor according to the invention, wherein the optoelectronic sensor provided with a light emitter and receiver for generating a detection zone is removably mounted on a holder and again removably mounted on a fixed part of the weaving machine. The optoelectronic sensor is positioned so that its detection zone is as close as possible to the space defined by the picking channel formed in the cane of the beam in its picking position.

An advantage of the optoelectronic sensor according to the invention is the extension of the time required for braking the weaving machine and stopping it when the weft thread is registered, which is particularly advantageous for high-speed weaving machines. In addition, this solution ensures a longer lifetime of the optoelectronic elements and their lead-in cable. A benefit is also the reduction of weft yarn waste when compared to an optoelectronic sensor placed in the ejector.

An example of a solution of the optoelectronic sensor according to the invention is shown in the drawing, wherein Fig. 1 shows a side view in the direction of weft yarn pick-up and Fig. 2 is a partial front view of the optoelectronic sensor positioning on the holder. threads for removing weft ends.

The optoelectronic sensor 1 is removably attached to the holder 2 and is again removably mounted on the fixed part 13 of the weaving machine. The holder 2 with the sensor 1 passes through the free space 7 formed in the beam 4 between the cane threads 5 for the warp threads in the soil and the cane threads 6 for the removal of the cut weft ends. The optoelectronic scanner 1, with its light emitter and receiver, forms a detection zone 3 for detecting the presence of the weft yarn 8 in the picking channel 10 as it is inserted into the open shed of the warp yarn.

During operation of the air weaving machine, the weft yarn 8 is introduced, through the picking channel 10, through the picking channel 10, by the main picking nozzle and auxiliary nozzles (not shown here), in the picking axis 9, after picking up the weft yarn 8. During this movement of the beam 4, the weft yarn 8 is transferred through the detection zone 3 of the optoelectronic sensor 1 and registered as a flawless pick.

Otherwise, when the weft thread 8 has not passed the detection zone 3, an impulse is given to stop the weaving machine. The optoelectronic sensor 1 with the holder 2 is set up so that the detection zone 3 is as close as possible to the space defined by the channel 10 formed in the cane 5 and 6 of the beam 4 in its swap position. Due to the close bonding of the deflection zone 3 to the weft yarn insertion space, a greater time margin is achieved for braking and stopping the weaving machine during one revolution of the main shaft, which is a great advantage especially for high-speed weaving machines.

Claims (1)

Subject An optoelectronic weft yarn sensor for air weaving machines provided with a light emitting transmitter and receiver for forming a detection zone which is mounted on a holder mounted on a fixed part of the weaving machine, characterized in that the optoelectronic sensing device (1J) as well as its holder (1). 2j are adjustable for position detection zones (3) adjoining the space defined by the sweep channel (10) formed in the cane (5, 6) of the beam (4) in its sweep position.